YAKHAK HOEJI (약학회지)

The Pharmaceutical Society of Korea (대한약학회)
권호 표지

Preparation and Characterization of Microemulsion containing Ibuprofen

Ibuprofen이 함유된 Microemulsion의 제조 및 평가

  • Published : 2001.12.01
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Abstract

Ibuprofen is one of the nonsteroidal anti-inflammatory drugs (NSAID) and has shown antiinflammatory; antipyretic, and analgesic activity in both animals and humans. But it causes gastric mucosal abnormalities including edema, erythema, and submucosal petechial hemorrhages and erosin in human. In addition, based on the pharmaceutical point of view the compression and dissolution ability of ibuprofen is known as poor. Therefore we studied to develop novel formulation containing water-insoluble drug, ibuprofen, using microemulsion consisting of surfactant, oil phase, and water phase was prepared for the purpose of increasing its bioavilability The physicochemical properties such as particle size, dissolution rate, solubility of ibuprofen in the system were determined. After oral administration of ibuprofen containing the microemulsion system, to Sprague-Dawley rats, pharmacokinetic parameters were also obtained. For the formulation in the study, oleic acid, linoleic acid, and several kinds of glycerides and triglycerides were used as an oil phase with several surfactants. Diethylene glycol monoethyl ether (Transcuto $l^{ }$) or saturated polyglycolized glycerides (Labrafil $^{ }$)as surfactant was used, the domain of microemulsion was wide. The diameter of o/w microemulsion was ranged from 90 to 220 nm. Microemulsion, prepared with unsatulated polyglycolized glycerides (Labrafil $^{ }$) and the 2 : 1 molar mixture of diethylene glycol monoethyl ether (Transcuto $l^{ }$)/polyoxyethylene(4) lauryl ether (Bri $j^{ }$ 30) , is expected to be promising system that increased the bioavilability of ibuprofen.ibuprofen.

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References

  1. Int. J. Pharm. v.34 no.R5-R8 Phase studies on oil-in-water phospholipid microemulsions D. Attwood;C. Mallon;C. J. Taylor
  2. Controlled release of drugs M. Rosoff
  3. Controlled release of drugs v.163 M. Rosoff
  4. J. Kor. Pharm. Sci. v.29 no.1 Formulation and skin permeation characteristics of aceclofenac plaster for transdermal delivery J. K. Chung;M. S. Lee;J. H. Park;J. W. Lee;H. H. Kim;Y. W. Choi;K. P. Lee
  5. Int. J. Pharm. v.21 no.219 The incorporation of lipid soluble antineoplastic agents into microemulsions protein free analogues of low density lipoprotein G. W. Halbert;J. B. Stuart;A. T. Fluorence
  6. J. Soc. Cosmec. Chem. v.34 no.335 Microemulsion : Evolving technology of cosmetic applications A. Jayakrishnan;K. Kalaiarsi;D. O. Shain
  7. J. Pharm. Pharmacol. v.43 Investigations into the pharmacodynamic effects of dermally administered microemulsions containing bete-blocker J. Kenkem;A. Zielgler;B. W. Muller
  8. J. Kor. Pharm. Sci. v.28 no.3 Evaluation of various vehicle and o/w microemulsions of flurbiprofen as transdermal delivery system G. W. Lee;U. K. Jee
  9. J. Pharm. Sci. v.29 no.2 Swlf-Emusifying drug delivery system containing ibuprofen for oral use J. H. Choi;J. Y. Kim;Y. S. Ku
  10. Pharmazie v.49 no.6 Effect of group substitution on the physicochemical properties of ibuprofen prodrugs A. K. Bansal;R. K. Khar;R. Dubey;A. K. Sharma
  11. Drug Dev. Ind. Pharm. v.25 no.3 Ibuprofen agglomerates preparation by phase separation M. Jbilou;A. Ettabia;A. M. Guyot-Hermann;J. C. Guyot
  12. J. Controlled Release v.61 no.1-2 Development of a multifunctional matrix drug delevery system surrounded by an impermeable cylinder I. Krogel;R. Bodmeier
  13. J. Microencapsul. v.14 no.3 Chemical, dissolution stability and microscopic evaluation of suspensions of ibuprofen and sustained release ibuprofen-wax microspheres C. M. Adeyeye;J. C. Price
  14. J. Microencapsul. v.12 no.4 Deviation of the ratio of drugs in a two-component mixture encapsulated in cellulose phthalate microspheres L. S. Wan;W. K. Chui
  15. Drug Dev. Ind. Pharm. v.25 no.8 The dissolution and complexing properties of ibuprofen and ketoprofen when mixed with methylglucamine M. M. De Villiers;W. Liebenberg;S. F. Malan;J. J. Gerber
  16. J. Pharm. Sci. v.82 no.2 Microencapsulation of drugs with aqueous colloidal polymer dispersion R. Bodmeier;J. Wang
  17. J. Controlled Release v.57 no.2 Studies on drug release kinetics from ibuprofen carbomer hydrophilic matrix tablets: influence of coexipients on release rate of the drug G. M. Khan;J. B. Zhu
  18. J. Microencapsul. v.16 no.4 Effects of production variables on the physical characteristics of ibuprofen-loaded polystyrene microparticles S. Tamilvanan